Photocatalytic decolorization of methylene blue in aqueous TiO2 suspension

A series of experiments were carried out to study the photocatalytic decolorization of methylene blue in a thermostatic reactor. The methylene blue solution for the experiment was synthetic, and all of the experiments were performed in a 2-1, reactor with UV lamps, a wavelength at 365 nm, in combination with a TiO2 powder as the catalyst. The results indicated that the optimal tentative conditions were developed in a solution with 0.25 g/L of TiO2 at a pH of 3.0, and the irradiation flux of an intensity of 2.83 mW/cm(2) to achieve approximately 98.2% color removal from the methylene blue solution (initial 10 mu M) during a reaction time of 60 min. The reaction can be expressed as pseudo first-order kinetics with the observed rate constant, K-obs, 0.067 min(-1). The addition of H2O2 as an oxidation agent in the reaction system results in shortening the reaction time, because the reaction efficiency is increased. However, three kinds of anions CO3=, Cl-, and SO4=) can inhibit the reaction progress. A higher temperature is significantly helpful to diminish the TOC of the wastewater during a photocatalysis process. The higher the reaction temperature, the more TOC removal is achieved. The experimental data estimates the activation energy of photocatalysis for methylene blue to be 14.45 KJ/mol, which can be reduced to similar to 12.1 KJ/mol by adding 5 mM H2O2 into the solution.